CPU power dissipation

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CPUs (Central processing units) in their various incarnations consume some amount of electric power. This power is dissipated both by the action of the switching devices contained in the CPU (such as transistors or vacuum tubes) as well as energy lost in the form of heat due to the resistivity of the electrical circuits. This is a major consideration in the design of CPUs and the computers they are used in.

Some implementations of CPUs use very little power. For example, the CPUs in mobile phones and pacemakers often use just a few microwatts. On the other hand, CPUs in general purpose microcomputers dissipate significantly more power because of their higher complexity and speed. These microelectronic CPUs may consume power in the order of several watts. Historically, early CPUs implemented with vacuum tubes consumed power in the order of many kilowatts (103 watts).

CPUs for desktop computers typically use more power than any other component inside the computer, except perhaps recent technology video cards which contain special purpose CPUs themselves. The steady trend in CPU power supplies over the past decade has been towards using lower voltages and having considerably higher currents. While energy-saving features have been instituted in PCs for when they are idle, the overall consumption of today's high-drain CPUs is considerable. This is in strong contrast with the much lower energy consumption of CPUs designed for low-power environments. One such CPU, the Intel XScale, can run at 600 MHz with only half a watt of power, whereas x86 PC processors from Intel in the same performance bracket consume roughly eighty times as much energy.

Processor manufacturers usually release two power consumption numbers for a CPU, the typical thermal power, which is measured under normal load, and the maximum thermal power, which is measured under a worst-case set of instructions. For example, the Pentium 4 2.8 GHz has 68.4 W typical thermal power and 85 W maximum thermal power. When the CPU is idle, it will draw far less than the typical thermal power.

There are some engineering reasons for this pattern.

  • Performing at higher speed always requires higher power. Reducing processor speed when possible saves power.
  • New features generally require more transistors, each of which uses power. Turning unused areas off saves power.
  • As a processor model's design matures, smaller transistors, lower-voltage structures, and design experience reduce power consumption.

Contents

[edit] Early CPUs

Note that these figures include power dissipation due to energy lost by the computer's power supply and some minor peripherals. However, since the CPU component of these early computers easily accounted for most of the computer's power dissipation, they are mentioned here:

[edit] Microelectronic CPUs

If not stated otherwise, the amount of dissipated watts refers to the peak-value.

[edit] IBM processors

[edit] PowerPC

  • Dual-core PowerPC MPC8641D 90 nm, 2 GHz, 1.2 V, 15-25 W
  • PowerPC 750FX 0.13 µm, 900 MHz, 1.2 V, 3.6 W
  • PowerPC 750CXe 0.18 µm, 600 MHz, 1.8 V, 6 W
  • PowerPC MGT560 0.20 µm, 56 MHz 2.7 V, .5 W (Performance=56MIPS)
  • PowerPC 440GX, 800 MHz, 4.5 W
  • PowerPC 970, 1.8 GHz, 1.3 V, 42 W
  • PowerPC 7400e, 1.0 GHz, 1.6 V, 30 W

[edit] Intel processors

[edit] Intel XScale

  • 80321 600 MHz, 0.5 watt

[edit] Intel Pentium

  • Pentium 75 MHz, 6.0W
  • Pentium 90 MHz, 7.3W
  • Pentium 100 MHz, 8.0W

[edit] Intel Pentium MMX

  • Pentium MMX 200 MHz, 15.7 W
  • Pentium MMX Mobile 166 MHz, 7.8W

[edit] Intel Pentium II

  • Pentium II Mobile 233 MHz, 9 W (TDP)
  • Pentium II Mobile 266 MHz, 9.8 W (TDP)
  • Pentium II 233 MHz, 34.8 W (TDP)
  • Pentium II 266 MHz, 38.6 W (Klamath, TDP)
  • Pentium II 266 MHz, 16.8 W (Deschutes, TDP)
  • Pentium II 450 MHz, 27.1 W ( TDP)

[edit] Intel Pentium III

  • Pentium III 450 MHz, 25.3 W (TDP)
  • Pentium III 600 MHz, 34.5 W (TDP)
  • Pentium III 600 MHz, 15.8 W (TDP)
  • Pentium III 700 MHz, 21.9W (TDP)
  • Pentium III 733 MHz, 22.8W (TDP)
  • Pentium III 850 MHz, 25.7W (TDP)
  • Pentium III 866 MHz, 26.1W (TDP)
  • Pentium III 1000 MHz, 29.0W (TDP)
  • Pentium III 1266 MHz, 29.5W (TDP)

[edit] Intel Pentium 4

  • Pentium 4 2.4 GHz, 67.6 W
  • Pentium 4 3.06 GHz, 81.8 W
  • Pentium 4 560J 3.6 GHz, 115 W

[edit] Itanium processor

  • Itanium 2 Processor 1.66 GHz 122W
  • Itanium 2 Processor 1.6 GHz 122W
  • Itanium 2 Processor 1.5 GHz 107W
  • Itanium 2 Processor 1.4 GHz 91W
  • Itanium 2 Processor 1.3 GHz 97W
  • Itanium 2 Processor 1.0 GHz 100W

[edit] Intel Pentium M

Model Clock Speed Power
780 2.16 GHz 27 W
770 2.13 GHz 27 W
765 2.1 GHz 21 W
760 2.0 GHz 27 W
755 2.0 GHz 21 W
750 1.86 GHz 27 W
745 1.8 GHz 21 W
740 1.73 GHz 27 W
735 1.7 GHz 21 W
730 1.6 GHz 27 W
725 1.6 GHz 21 W
715 1.5 GHz 21 W
705 1.5 GHz 21 W

[edit] Intel Core Solo

Model Clock Speed Power
T1400 1.83 GHz 27 W
T1300 1.66 GHz 27 W
U1400 1.2 GHz 5.5 W
U1300 1.06 GHz 5.5 W

[edit] Intel Core Duo

T - Standard, L - Low Voltage, U - Ultra Low Voltage

Model Clock Speed Power
T2600 2.16 GHz 31 W
T2500 2.0 GHz 31 W
T2400 1.83 GHz 31 W
T2300 1.66 GHz 31 W
L2400 1.66 GHz 15 W
L2300 1.50 GHz 15 W
U2500 1.20 GHz 9 W
U2400 1.06 GHz 9 W

[edit] Intel Core 2 Duo

Model Clock Speed Power
E6700 2.66 GHz 65 W
E6600 2.40 GHz 65 W
E6400 2.13 GHz 65 W
E6300 1.86 GHz 65 W
X6800 2.93 GHz 75 W
T7600 2.33 GHz 34 W
T7400 2.17 GHz 34 W
T7200 2.00 GHz 34 W
T5600 1.83 GHz 34 W
T5500 1.67 GHz 34 W

[edit] AMD processors

[edit] AMD Athlon

  • Thunderbird Athlon 750 MHz, 1.75 V, 43.8 W
  • Thunderbird Athlon 800 MHz, 1.75 V, 45.5 W
  • Thunderbird Athlon 850 MHz, 1.75 V, 47.92 W
  • Thunderbird Athlon 900 MHz, 1.75 V, 50.7 W
  • Thunderbird Athlon 950 MHz, 1.75 V, 52.5 W
  • Thunderbird Athlon 1000 MHz, 1.75 V, 54.3 W
  • Thunderbird Athlon 1400 MHz, 1.75 V, 73.5 W

[edit] AMD Athlon XP

  • Palomino Athlon XP 1900+ (1600 MHz, 0.18um), 1.75 V, 68.1 W
  • Palomino Athlon XP 2000+ (1667 MHz, 0.18um), 1.75 V, 70.5 W
  • Palomino Athlon XP 2100+ (1733 MHz, 0.18um), 1.75 V, 72 W
  • Thoroughbred A Athlon XP 2200+, 1.65 V, 67.9 W
  • Thoroughbred B Athlon XP 2200+, 1.65 V, 62.8 W
  • Thoroughbred B Sempron 2200+ .. 2800+ (0.13um), 1.60V ,Max 62W
  • Barton Athlon XP 2600+, 1.65 V, 68.3 W
  • Barton Athlon XP 3200+, 1.65 V, 76.8 W

[edit] AMD Athlon 64

  • Newcastle Athlon 64 2800+ 512 KB, 1.50 V, 89 W
  • Clawhammer Athlon 64 3400+ 1 MB, 1.50 V, 89 W
  • Winchester Athlon 64 3500+ 512 KB, 1.40 V, 67 W
  • Venice Athlon 64 3200+ 512 KB, 1.45 V, 67 W

[edit] AMD Athlon 64 FX

  • Athlon 64 FX-53 1 MB, 1.4 V, 89 W
  • Athlon 64 FX-55 1 MB, 1.4 V, 104 W
  • Athlon 64 FX-57 1 MB, 1.4 V, 134 W

[edit] AMD Sempron

  • Sempron 3100+ (Socket 754) 256 KB, 1.40 V, 62 W

[edit] AMD Turion 64

  • 64-bit low-power (mobile) processors, 1600, 1800, 2000, 2200, 2400 MHz; TDP: 25/35 Watt max

[edit] VIA processors

[edit] VIA C3

  • Nehemiah VIA C3 1 GHz, 11.25 W

[edit] VIA Eden-N

  • Eden-N 533 MHz, 4 W
  • Eden-N 800 MHz, 6 W
  • Eden-N 1000 MHz, 7 W

[edit] VIA C7

  • Esther VIA C7 1.5 GHz, 90 nm, 12 W
  • Esther VIA C7 2.0 GHz, 90 nm, 20 W
  • Esther VIA C7-D 1.8 GHz, 90 nm, 20 W

[edit] Comparison of power consumption of some modern CPUs

Power consumption graph

[edit] References

  1. Weik, Martin H. (1955). "A Survey of Domestic Electronic Digital Computing Systems". United States Department of Commerce Office of Technical Services.
  2. http://developer.intel.com/design/itanium2/documentation.htm#datasheets
  3. http://www.intel.com/pressroom/kits/quickreffam.htm
  4. http://www.intel.com/design/mobile/datashts/24297301.pdf
  5. http://www.intel.com/design/intarch/prodbref/27331106.pdf
  6. http://www.via.com.tw/en/products/processors/c7-d/

[edit] External links

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